Heritable Adaptation and Fitness Costs in Killifish (Fundulus Heteroclitus) Inhabiting a Polluted Estuary

Meyer, Joel N.; Giulio, Richard T. Di

doi:10.1890/1051-0761(2003)013[0490:haafci]2.0.co;2

Cited by 154 publications

(152 citation statements)

References 67 publications

(90 reference statements)

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“…2). Evidence for intragenerational washout at the molecular level also exists in the killifish (Fundulus heteroclitus), where a refractory CYP1a phenotype potentially acquired through germline-dependent epigenetic effects are progressively lost during larval development Meyer and Giulio, 2003) and fade out over time within the F 1 generation Before leaving the topic of intragenerational epigenetic effects, consider the medically oriented view of the concept of intragenerational wash-in. If one views a disease that develops through non-genetic mechanisms as an intragenerational epigenetic effect then, almost by definition, as the disease progresses, the modified (diseased) phenotype is 'washing in'.…”

Section: Intragenerational Washoutmentioning

confidence: 99%

Dynamics of epigenetic phenomena: intergenerational and intragenerational phenotype ‘washout’

Burggren

2015

Journal of Experimental Biology

107

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Epigenetic studies of both intragenerational and transgenerational epigenetic phenotypic modifications have proliferated in the last few decades. However, the strong reductionist focus on mechanism that prevails in many epigenetic studies to date has diverted attention away what might be called the 'dynamics' of epigenetics and its role in comparative biology. Epigenetic dynamics describes how both transgenerational and intragenerational epigenetic phenotypic modifications change in non-linear patterns over time. Importantly, a dynamic perspective suggests that epigenetic phenomena should not be regarded as 'digital' (on-off), in which a modified trait necessarily suddenly disappears between one generation and the next. Rather, dynamic epigenetic phenomena may be better depicted by graded, time-related changes that can potentially involve the 'washout' of modified phenotype both within and across generations. Conceivably, an epigenetic effect might also 'wash-in' over multiple generations, and there may be unexplored additive effects resulting from the pressures of environmental stressors that wax, wane and then wax again across multiple generations. Recognition of epigenetic dynamics is also highly dependent on the threshold for detection of the phenotypic modification of interest, especially when phenotypes wash out or wash in. Thus, studies of transgenerational epigenetic effects (and intragenerational effects, for that matter) that search for persistence of the phenomenon are best conducted with highly sensitive, precise quantitative methods. All of the scenarios in this review representing epigenetic dynamics are possible and some even likely. Focused investigations that concentrate on the time course will reveal much about both the impact and mechanisms of epigenetic phenomena.

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Section: Intragenerational Washoutmentioning

confidence: 99%

Dynamics of epigenetic phenomena: intergenerational and intragenerational phenotype ‘washout’

Burggren

2015

Journal of Experimental Biology

107

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“…These maternally derived factors can have a significant impact on offspring physiological phenotype (i.e. immunological capacity, growth and development, cardiovascular function and toxicant resistance) in a wide range of animals (Munkittrick and Dixon, 1988;Meyer et al, 2003;Weaver et al, 2004;Groothuis et al, 2005;Sellin and Kolok, 2006;Groothuis and Schwabl, 2008;Ho, 2008;Moreno et al, 2008;Romano et al, 2008;Hasselquist and Nilsson, 2009 (Ho, 2008). Metabolic rate, however, was not affected (Ho, 2008).…”

Section: Egg Components and Intrauterine Environmentmentioning

confidence: 99%

Epigenetics and transgenerational transfer: a physiological perspective

Burggren

2010

Journal of Experimental Biology

303

227

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Summary Epigenetics, the transgenerational transfer of phenotypic characters without modification of gene sequence, is a burgeoning area of study in many disciplines of biology. However, the potential impact of this phenomenon on the physiology of animals is not yet broadly appreciated, in part because the phenomenon of epigenetics is not typically part of the design of physiological investigations. Still enigmatic and somewhat ill defined is the relationship between the overarching concept of epigenetics and interesting transgenerational phenomena (e.g. ‘maternal/parental effects’) that alter the physiological phenotype of subsequent generations. The lingering effect on subsequent generations of an initial environmental disturbance in parent animals can be profound, with genes continuing to be variously silenced or expressed without an associated change in gene sequence for many generations. Known epigenetic mechanisms involved in this phenomenon include chromatin remodeling (DNA methylation and histone modification), RNA-mediated modifications (non-coding RNA and microRNA), as well as other less well studied mechanisms such as self-sustaining loops and structural inheritance. In this review we: (1) discuss how the concepts of epigenetics and maternal effects both overlap with, and are distinct from, each other; (2) analyze examples of existing animal physiological studies based on these concepts; and (3) offer a construct by which to integrate these concepts into the design of future investigations in animal physiology.

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“…In turn, this ability may allow a prevalence of the 60 most well-adjusted specimens (Meyer and Giulio 2003), which could lead to a decrease 61 in the biodiversity due to the extinction of the less adjusted ones (Lotze et Metals are recognized as long-lasting pollutants in estuarine systems, frequently 72 potentiating the occurrence of biological adjustments in the exposed organisms. 73…”

Section: Introduction 57mentioning

confidence: 99%

Propensity to metal accumulation and oxidative stress responses of two benthic species (Cerastoderma edule and Nephtys hombergii): are tolerance processes limiting their responsiveness?

et al. 2016

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CitationPropensity edule. In the light of current findings, the information of C. edule as a bioindicator 47 should be complemented by that provided by another infaunal species under field 48 studies, since tolerance mechanisms to metals can hinder a correct diagnosis of 49 sediment contamination and the system's health. Overall, the present study contributed 50 to improve the lack of fundamental knowledge of two widespread and common 51 estuarine species, providing insights of the metal accumulation profiles under a 52 scenario of chronic contamination. Finally, this work provided useful information that 53 can be applied in the interpretation of future environmental monitoring studies. 54 3

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Heritable Adaptation and Fitness Costs in Killifish (Fundulus Heteroclitus) Inhabiting a Polluted Estuary

Cited by 154 publications

References 67 publications

Dynamics of epigenetic phenomena: intergenerational and intragenerational phenotype ‘washout’

Dynamics of epigenetic phenomena: intergenerational and intragenerational phenotype ‘washout’

Epigenetics and transgenerational transfer: a physiological perspective

Propensity to metal accumulation and oxidative stress responses of two benthic species (Cerastoderma edule and Nephtys hombergii): are tolerance processes limiting their responsiveness?

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